Film splicer



0d 7, 1941. J. M. GoLpBERG 2,258,356"

FILM sPLI'cER Filed Mar-ch 18, 1940 3 SheetS--SheeI I Miam ey ocu, 1941. J. MGQLDBER@ 2,258,356

FILM SPLIGER Filed March 18, 194

3 Sheets-Sheet` .2

y /nyentors 1 oct. 7, 1941. l FIL-M SPLICER Filed March 18, 1940 3 Sheets-Sheet 3 /n Ven for.' Jacob /V O/de/"g J. M. GOLDBERG 258,356

Patented Oct. 7, 1941 L. The. :invention relates vto ...improvements in ;1m esplicers ofthetypeldescribed and claimed inmy ,.:Ratent No...2,231,383, :February .11, 1941.

n 1 -Infthemanufacture.and exhibition of moving F-picture films .it frequently becomes necessary to).` -V splicethe same andfor'zthis purpose various lm splicing,.deyicesshave` been manufactured and .fso'ldL l l. f

During exhibitionit frequently happens that A, films become `torn and must be repairedas quickly. -easpossible-tohaverthem ready for thesucceeding .eexhibitionsand .it is therefore desirable` .to 'have .yan rapparatu-s 'that `.performs :this operation ex- `cpeditiouslyand alsoproduces a perfect splice.

mln :ther-'patent rabovemidentifled, `a lm .spliceing mechanism .has `beendescribed and claimed which operates very-satisfactorily and v.on which this .present .invention isan improvement.`

rItzis an object. ofthisinvention 12o-produce a simple and substantial film splicing member .that

can :beemployed byitself in anyplace wherezfilms r areto bespliced or repaired and 'whichcanalso label-associated witha iilmirewind `mechanism and solpositionedwwith respect `4thereto that it can zbeiquickly moved .into

,.. :,ion.` l l n n `the device described and `.claimed in the iypatent above L identiiied lthe.v glm `,cleaner 4fis re ciprocated by. .power'derived :from ar-.motor `which ralsooperatesathe cleaner. ,-In lthe presentmechar .ainismthepleanerpis,operated `bylmeansof an elec- Yrtiric n Lmotor, l but it is .reciprocated by :manually toperab-lemeans. n l

vArrotherobject `of this invention is to produce, a Jlflmasplicing device that vshall sbe` soconstnucted has; to entirelyeliminateany dangerfof rere- :esulting from sparks produced by the opening and ticlosingl ofthe electric circuit .connection theren liu" l n `:FI A; fstill n vfurther l object is to produce n a `.splicer having LaA heating element associated therewith fand connected withftheselectriocurrent supply by means ofiacswitch mechanism that: automatically "ydisconnectsithe heater :when the .splicer is not in euse and Iwhich establishes the heater connection f. when .the spliceris'in operation. n i.; :further object `of :the `invention `is to pro- `aduce `a splicer havingtan electric motor .for `operatingrthelr'otary cleaner andwhich motor is controlledzby `means of two ormore mercury switches; 5

nconnected inseries which infturnareoperated by fthevlmclamping meansiin such a -Waythat the motor will not operate until the.:par.ts are brought into proper position. f

and .out of .operative po-` l .of the kind `described .in-which @s .ihermostatic switchu's connected in circuit with .thernctorafnd g .with theffheater so .as toppen/the `electric circuit in case the; parts become overheated.

. .'The abcvefand other objects thatamay `become apparent as :this `description .proceeds are at- 1. tained vby means iof va construction and Aan .ar- .rangementof'parts thai-Minnow begdesoribedin detalhand forfthis purpose reference willbe had to the accompanying drawings in which :the

preferred A.emioodiment .of the invention haslbeen illustrated, and in which:

Figure lisa top plan View of the splicer; Figure .2 11s .a `front elevation .thereof .looking in the direction of ...arrow .2., .rlpFgllre 1t;

.'Figure Bis a side elevationplookinglinrthe.direction of'arrows l3 in Figures 1 and 2;;

YFigure .44 .is a fragmentary Section taken on .shearing 'and clamping .members in :partly .open

, position;

Figure -5 is a fragmentary.. section similar to n `#that .shownin ,Figure ,4, -and shows'the -position'gcf ,the parts after the nlm has .been Sheared and while the endsare held in superposed position;

Figure 651s `a section taken on line ii-.6,

. Figure 1;

Figure 7-iis :a vsection teken fon line 1 1. figure `1:

`Fligure "8 is `a section :taken on. line i.8f-8, t. Figure 7; r

:Figure 9 lis :e lseoton taken on .lines fil-:9,

, VFigure '10 v`is 'a Vsection taken on :line ,IIL-l0, Eigure Land 1 Figure-11 is1 adiagram shownegthe Wrineoon- .fnections In the drawings .reference numeral lfdesignates Ia support which comprises ,aimetalgplate which is'` preferably maden-f aluminum andwhich flanges A and project inwardlyvas shown in Figure l l7. Resting yon :the support :is the splicer which -1 fcomprises -a `base vt9 havingfigts front `edge -provided with two Vspaced `downwardly extending fflanges A2liV that .serve afszlimit stops. The baseis provided y along reach ,end 4with `two supporting rollers '2l that are mounted for-rotation on pivots carried by lugs Y2,2'. `In the "drawings Only'twofof .these plugs have been,;shown in Figure 11 because Ythe'othertwocareso locatedthatftheyfoannot-be 1L.. still further .object ..lis itozfproduce afdev1ce'155 seen in 1.a rplan view. ,.'Ihe .other :two/.wheels are,

however, shown in Figure 2. The wheels are of such size that the base is supported a short distance above the upper surface of support I so as to provide a free movement. The upper surface of the support is provided with a longitudinally extending groove 23 for the reception of a lug 24 that projects thereinto from the bottom of base I9, and which serves to limit the extent of relative movement towards the left when viewed as in Figure The nanges20 serve to` limit the movement towardsA ,ther right and bythis means the splioer is limited to a predetermined movement with respect tothe support. f j

Supported on the base I9 is a body of cast material which comprises two spaced supporting members 25 and 26 that are connected-by. apart 21. The part 25 extends rearwardly and isninte-y gral with the part designated by reference `nu-V meral 26. This casting is, as above stated, hollow and isl attached t0 the base I9 by means {of'a' plurality of 'screws 29 'that extend through I. lhugs-:365'provided` for their! reception. I Positioned lwithinlthe Lhollowicastingv are various electrical switches andcut-Outs that have not been shown A` helical compression spring 35 is positioned between the llug 32 and the adjacent side of jaw member 34 and exerts a pressure lwhichfforces -the jaw against the surface of lug 3l, thereby: maintaining it in a predetermined position` rfelative to. this' lug and also provides a certain amount of friction that serves f -to rhold the` jaw in lanA intermediate position. AExtending upwardly fromthe top of the casing is la .lug 36` thatv is positioned. Iso-engage: a `co-' operating lug 31 carried by the jawm'emlber 34. `Luge-36 and-r 31 .limit the movement of the clamping jaw. On the'under surface of member 25 two brackets 38 extendv downwardly and pivotallyv supported'by these two brackets is a mercury switch 39fthat is normally maintained in open position as shown in Figure 92 Y A lpin4II -extends-through an-openingdnlug 4I- an'dris of such length that its upper end will be engaged ,--vbytheunder surface offjawmember 34 whenever the latter is moved into film clamping position.

It-will therefore'be apparent that switch39 is open whenever the jaw member-34 is open and is closed whenever thehjawu 'memberis moved to operative or/film` clamping position. Supporting Mmember `25 -is-.provided witha removable. steel plate 42 that is held in place thereonb'y a plu- `vrality` of screws which have not been shown. -V'Directly` beneath plate 42 isa V'recess ory opening 4'3 in which is'located an electric heating element l 44. VPlate 42l is v'provided with two upwardly extending pins 45`that serve to position a lm in vlplacethere'on. Jaw member 34 is provided with a removablesteel plate 46 vthat is 'held in place by vmeans ofscrews41. Plates-46 has openings for th'efreceptionof positioningrpins- 45.Y At the left eln'd'o'f supporting. member 25 is a removable lplate 48 that is" held in place by means of screws 149. 'The upperweidge of-'this plateA has a wide notchfb'etwee'n the 'lugs 56 which serve to positio'nthe 'nlm sl'fwith respect to thenppelf surface of plate42. t will'be observedfrom Figure 4 ---that plate-42.projects ai short distance tothe 1 `right of! the upwardly'Vv extending wall of supporting-'member 25 .and that plate 46 terminates a short distance t0 the left. The two righthand ends of plates 42 and 46 serve as shear members for cutting the film in a manner which will presently appear.

Extending upwardly from the top of supporting projection 26 are two lugs 52 and 53. These lugs are provided with openings for the reception of the pivot 54. Mounted for rotation about pivot 54 are a pair of clamping jaws 55 and 56. Clamping jaw 56 hastwo rearwardly extending spaced v arms "through the ends of.which' the pivotr54 Vextends and clamping jaw 55 has an extending portion of the proper width to t between the in Figure l.

two arms -of jaw 55 in a manner clearly shown Clamping jaw 55 is provided with aprojection51 that engages a lug 58 that extends fupwardlyffrom the top of the support 26 in a manner shown in 'Figure l0. The projection 51 and the-lug 58 serve to limit the upward movement of clamping jaw 55. One of the rearwardly extending arms of 'clamping' jaw.` 56 is 'provided with a projection 59;that engages and depresses a pin 60 whenthis jaw moveslto vertical position.

' Pin 60 yoperates the mercury'switch 6I shown in projection 62 that can be"engaged bythe opera-- l torsA finger. for separating the pair `ofjjaws. It is also provide'dswith a downwardly extending curvedspringgGB-that engages over the'v inner surface of clamping jaw 56 to hold the two jaws .in.'operative position..I Clampingjawi isalo Vprovidedwith an upwardly extending projection 64 that corresponds' in function to the member 62.-V A similarprojectioni 65y is.formed integral withV jaw member 34. Clamping'. jaw V56A has l upwardly extending; 'pins V.66 that projectfinto .corresponding openings :in .the :under surface oi .clamping jaw `when thetwo'` jaws are 'in operativ-e .position .as shown in Figure 4.'1 A plate Y61 is .attached to `the :under surface of 'clamping jaw 56 and held in place by means of screwsB. Plate 61 is adjusted so that its end is in alignmentrwithfthe opposing `end ofplate 42and fsoladjusted relativev 4thereto i that whenlit-fis .'Figure 4.it.will.she`ar the lm 5I.

moved downwardly from'the position shownfin Afspring plate 69 is'attached to theupper surfaceof clamping jaw 55 by screw 1I) and the lefthand end` of this springA plate is .'curved'as" indicated at 11"' and projectsl downwardly and ,thence towards thefleft 12 also serves to hold the two ends "of the'jfllm in position .while the cement'js drying, in.the

v manner shownLinf Figure 5. Clamping 'jaws 55 vand 56.c'anbe;turned1about:the'pivot 54` independently-of.` eachotheronas a unit. n:

` Attention is called to 1 the` fact .that .fmerciiry switch 6I is 'normally open and closes (only,4 when clamping jaw 56'1's2'inhoriZontal. position. :Since the motor 13 is connected "in'sleries with both switches and'6.I.,.i't is obvious thatv it willnot i operate unlessboth of-said switches are in closed position, the, object of this 1 will appea'rj as lthe description proceeds; Attachedto; ,the righthand end of clamping` .jaw :55.1.1sa removable plate 4'48a thatlcorre'sponds to 13131648 thaths already been described.

From the above descriptien vtudinal movement. 8| towards andaway from bracket 11G, bar 884- .will be rotatedA about its `axis for a purpose that will hereinafter appear. n-slidably supported `in A:two spaced bearings `89 423258,-"356 that if "two pieces -of filmare "to be spliced, the f Iend of Vone piece can 4be positioned/on top of lplate 42 and held against movement by means of jaw 34 to which the plate 46V is attached. Pins 45- that 'project through sprocket openlings inthedilm, position it inwsu'ch a way with irespect toshearin'g andi of plate "42 that when the `other film is broughtinto engagement-wherewithin the Vmanner shown in Figurelpthe frames will be properlyspaced. `The end of the other vfilm is positioned between jaw members -55l and l561inthe'mannerfshown i-n--Figlure .4f-and when Before the Attached to theupper surface of? the portion ldesignated by .referencenumeral' 28 is a metal bracket 14 that isfprovidedat `its 'top with a flange that `ex'tendstowards the right, when f `viewed'as infFigure` 7, and withaba'se `116 whose under surface rests on 'the top of` part 28. The

(base 1.6.has threeenlargements, two of which have been designated by -reference numeral :11 and oneof which has been designated by ref- 'erence numeral 18.

'Cap screws 19 extend through the base "16 and have threaded engagement `with `the top of .portion V28 and serve to hold member T4 rmly 'in position. A screw 80 extendsthrough anv opening in the enlarged part 18 and has'its inner end in threaded engagement fwitha guide member 0|. Areference to Figure l 7 will show that theopening in'part 18 is some- -what larger than the `diameter of the screw and the latter therefore can move relative to the Referring now to Figure 8, which is a section taken on line `8 8, Figure 7, it will be seen ythat the two adjusting bolts `82 which extend through the enlargedportions 1l, engage the ends of the guide member 8| and that by i `rotating screws 82, jthe 'position of `the guide `member can `be changed with lrespect to the bracket 04. By adjustinglscrew', the distance `between the adjacentsurface of 'member 14 and guide member 8| can be 'adjusted'and'by means of theiscrews 82, their angular relation can be adjusted. Lock nuts83 `serve to holdthe'screws 02 -inadjustedposition. Guide Vmember 8| has a flange 84 `that projects tothe right thereof l when viewed as in Figures 7 and Sand this `flange is provided withan elongated opening 85 in which is `positioned a `roller 8S thatis pivoted to the lower end -ofia'pin `8"! that extends downwardly from a bar 88. The sides of the,

elongated opening `85 -serve to prevent rotary lmotion of bar=88 and'the ends of this elongated `opening serve `to, limit .the lextent `of the longi- By moving guide member The bar B8 is fand90. These bearings zare attached to and projectfrom one side-of a steel `bar `9| Vthat isf;` pivotally-attached to "member 14 by means bof a pin 92, which is preferably positionedfat the middle of bar 29|. `Capscrews'93 extend through vertically Aelongated .openingsi in member 114 andn are .threadedly lconnected Awith bar 9| 4Eso tirati-75 'the-latter fcan' be turned to Aallimited `'extent "about ythepivot pin 92. Adjusting screws94 'extend throughV the flange A15 fand engage the -len'ds of .bar9-I.. `When `the 'cap Vscrews 93are -`-1oo`sene'd,'bar`f9| can be adjusted aboutthe axis of thepivo't pin-'bymeans of .screws 94 and when "the proper adjustment has been effected, cap

screws 93 .are tightened and the llock nuts 94 are also tightened, thereby clamping bar 9| in '-pos'ition. Since Ithe .bearings 89 .and 90` are integral with or rigidly attached to the bar 9|,it is evident thatby this adjustment theaxis of the bar n|381canalso be adjusted. A pin 96 projects from one side of bar 88 and serves" as a i pivot `for one end of link `9`|,whose other end `is connected to a crank arm 98 Vby means .cfa "pivot 99.

nonrotatablyrconnected with a shaft. |00. `The `inner end of 'this shaft is' journalled in the inner The 'other `end Vof `crank arm 9891s wall of part 20 and its outer end is journalled in a `bearing 'provided therefor in a flat bai" |0| that is secured tothe outer surface Vof `the `part designated by reference numeral 26.

handle |02 `'is attachedto the outer end of shaft |00 and serves as a means for rotating the same.

It is' evident 'that when shaft |00 "is rotated `in a counterclockwise direction from the position'shown in 'Figure .6, it will move bar 4188 towards the left and Ythereforeby oscillating lshaft `100, the bar83 can be recip-rocated. The

extentof Athefreciprocation is determined by the lengthof theopening 85. Roller 80, as above explained, prevents the bar from rotating about litsaxis during reciprocation. v'Ihe bar can,'ho'w ever, `be adjusted rotarially by .the mechanism shown in Figures 7 and 8.

yReferring now more particularly to Figures 6 and8, it will be seen that the front end ofbar 08 has a `diarnetrically positioned slot |03 in which is positioned a flat steel member |04. -A pivot |05 extends through the plate |04 and `through the opposite sides of bar 183 and secures `the plate 'to the lbar in` such `a `manner that it can beA adjusted about lthe axisof the pivot |05. Plate |04 has a rearwardly extending finger |`06rpositioned above the bar and asimilar extension |01 positioned below the bar. An adjusting screw |08 is threadedly mounted innger |09 and a helical compression *spring |09 is positioned in a cylindrical depres- 'sion in the upper surface of `partlli'l and engages the under surface `of `the bar in the -manner shown in Figure 6. It is evidentthat spring |09 tends to turn the plate clockwise about lpivot |05 fand thatthis action is-resistedfby-the screw |08.

To turn plate |04 in a vcounterclockwise direction, screw '|08 must be turned `so as to raise nger |06. A shaft ||0 is mounted for rotation in a bearing adjacent the lefthand end of plate |04, when viewed as in Figure`6, and` attached f to the outer end of this shaft is a toothed rotary vcutter -A bevel gear |'|2 `isattached to the opposite end of shaft |0 and-this gear meshes withasimilar gear Acarriedby a shaft i3 that is `nonrotatably connectedv with a square tube |4.

The'two "bevel gears arepositioned ina-.housing lrl'which has a removable cover I` 6. Whenever `the square tube is rotated, the cutter will also be rotated.

For the rpurpose of rotating the cutter 1| a vmotorlfhas been providedfoneendof the motor :shaft/is.providedwith a spur-gear ||7 that'is in mesh'with` a spur pinion H8 that iscarried-on` a I squareshaft ||9. vThisshaft is journalled in a bearing SL20. lrShaft i|i|i9 is ltelescopically :con-

nected with the square tube and therefore` the i latter can' be'rotated.whi1e it isy movingllongi- .tudina1ly It is evident thatwhenever the motor |23a are carried by the splicer. and I2 la control the current supply to the motor is operating it will cause the cutter I to rotate.

The cutter must beadjusted vertically rto such a position that when it is `reciprocated vover the nlm for the purpose of removing the emulsion therefrom, it does. not cut too deeply into the ,l'm and cuts sufficiently deep to removel the -emulsion and this adjustment is effected by means of the screw |08. s

Since the cutter' must operate on the Aupper surface` of the film that rests on plate 42 (Figure 4), it is evident that the-part of clampingjaws 55 and 56 must be removed from the position .shown to a vertical positionvto permit the cutter 5to operate. :ries with the two mercury switches, both of these must' be closed before the motor can Since motor 13 is connected in seoperate.

In Figure 9, the mechanism by means of which lswitch 39 is closed, has been illustratedand in Figures 3 and 11 the corresponding means for operating switch 6| have been shown. In order to have the motor operate, jaw member 34 must `be in film clamping position while the pair of jaw members 55, 56 must be in vertical position.

Let us now assume one end of the film is clamped between plates 42 and 45 as shown in Figure 4, and that the cleaner is in the position shown in Figure 1. To operate thecleaner the pair of jaw members 55, 56 must be moved to vertical position, whereupon the motor will automaticallystart and after the motor has started,

the operator grasps the handle V|62 and turns it in a counterclockwise position when viewed as in Figure 3, whereupon rod 8S will be moved yforwardly, thereby bringing the cutter into engagement with the upper surface of the film. The length of the reciprocation is determined by the length of the opening 85. It is evident that the cleaning of the film can be effected very quickly las, it merely requires the operator to reciprocate By slidably supporting the splicer on the support |5, it can be moved back when not in use so as to prevent it from occupying space that can be Aotherwise employed.

' YThe transverse sliding movement between the splicer and the base makes it possible to provide a self-opening switch for the motor.- This Y switch comprises three parallel elongated contacts which have been indicated by numbers |2I, |22 and |23. 'Ihese contacts are carried by the support and cooperating contacts |2|a, |22a and Contacts |2I 13, and therefore the latter will not be connected in the circuit when the parts are in the position shown in Figure 6, but only when-the splicer is moved forwardly to operative position. The heating element44 is constantly connected in the circuit so that the parts will always remain hot. A thermostat, |24, .which Ahas .been indicatedin a general and diagrammatic manner in Figure 1l, controls the current supply htoboth `themotor and the heating element so Lasto cut off the current in case `the parts become superheated.

. primary purpose of this is to adjustthe cleaner l| Vto taper theend of the film and to vary the inclination of the cleaned surface with respect ,to the film surfaces; i

, Referring nowY togFigures 4 and 5, attention is t Adirected to spring plate 651 and to the fact that the flat strip- 12, which isconnected thereto by the curvedportionfH projects outwardly in the plane of jaw55. The edge of part 12 is the shear edge and since this is resiliently connected with the rest of the strip, it can be so adjusted that Vit will move slightly when it engages the shear edge of thejhigh speed steel plate 46 and it therefore keeps sharp, Screws 'I0 pass through oversize holesA in plate E9 so that the latter may be adjustedV relative to jaw 66. Plate Bil is also adjustably attached to jaw 66. i

The heating element 44 maintains the partsat t stantially the same Way and such substitutions are contemplated within the scope of the appended claims.

Having described the invention what is claimed as new is:

1. Ina lm splicer having a base, provided with an vupwardly projecting portion whose upper surface forms a lm support, means for holding the nlm in place on the support, said means terminating a short distance from the end of the support whereby a portion of the lm directly above the support will be exposed, means for removing emulsion from the exposed portion, said means comprising a bracket, a bearing support pivoted thereto, a bearing carried by the support, a bar mounted in the bearing for longitudinal reciprocation, means Vfor resisting forces tending to rotate the bar, means for limiting the extent of the bars longitudinal movement, a rotary toothed cutter carried by the end of the bar, means comprising a shaft for supporting and rotating the cutter, a bevel gear on one endof the shaft, a gear housing supported on said shaft, a second shaft rotatably supported at one `end by the housing, said shaft having the supported end operatively connected to a bevel gear positioned in the housing, in engagement with the iirst mentioned bevel gear, an electric motor carried by the base, a third shaft slidably connected with the second. shaft, means 'for -rotating the third shaft .by power derived Afrom the motor, and manually operable means comprising a handle pivoted to the base, anda link connecting the handle to the bar for reciprocating the barand the cutter.

2. A device in accordance with claim 1 in which pivot and in Which means is provided for adjusting. .it-.aboutl the. .pivotfto .vary zthedistance. from" the2 upp.ersurface .of thesupport to the toothed clutterg 1 "63; A. lm.splicing device,. comprising..ncom bination, a.base', aiilmzsupporting projection extending. upwardly therefrom, means comprising adam-pivotally Aconnected. to the base-and operatively. associated` with theprojection-for clamping.. arzlmaagainstithe .upperlsurface thereof; a portiontof kthesupporting surface .extending beyond. the; clamping .means and means.v for removingv emulsion. from a tran'sversestrip of the. upper. surface-.of the nlm,` saidmeans.. comprising; a. bracket extendingaupwardly. from thefbase, a.. bearing. support. attached!` to .ther bracket for movementabouta horizontal pivot, means for adjusting the bearing support relative to the base about its pivot, a bearing on the support, a bar slidably mounted in the bearing, manually operable means for reciprocating the bar, means for resisting forces tending to rotate the bar in the bearing, a horizontal pivot carried by one end of the bar, a plate secured to the bar by said pivot, a cutter rotating shaft mounted for rotation in the forward end of the plate, a circular toothed cutter secured to said shaft, means comprising a spring for urging the rear end of the plate downwardly, means comprising a screw carried by the rear end of the plate and engaging the bar for moving the plate upwardly about its pivotal connection with the bar in opposition to the force exerted by the spring, a motor carried by the base, and means comprising a Shaft having two telescopically connected sections and a bevel gear for transmitting rotary motion from the motor to the cutter while the bar is reciprocated.

4. A mechanism in accordance with claim 3 in which means is provided for adjusting the bar rotatably about its axis.

5. A iilm splicercomprising in combination, a base, having an upward projection whose upper surface forms a support for a moving picture hn, a clamping jaw pivotally connected with the base for movement towards and away from film clamping position, means for removing emulsion from the upper surface of the film comprising, a bracket secured to the base and extending upwardly therefrom, a pivot extending horizontally from one side of the bracket, a bearing support secured to the pivot, means comprising screws operatively associated with the bracket and the support for effecting an adjustment of the latter about its pivot, a bearing carried by the support, a

bar slidably mounted in the bearing, a guide f member attached to the bracket and positioned below the bar, said guide members having an elongated opening, a pin projecting from the bar into the opening in the guide member, means comprising a handle pivoted to the base, and a link mechanism operatively connecting the handle to the bar for reciprocating the latter, a circular rotary cutter, having an abrading peripherial surface, attached to the forward end of the bar, and means for rotating the cutter, comprising a motor carried by the base, a telescopic shaft, and two bevel gears arranged in cooperating power transmitting relation, one of the gears being connected with the cutter and the other with one part of the shaft.

6. A device in accordance with claim 5 in which means is provided for adjusting the position of the guide member relative to the bracket.

7. A iilm splicing device, comprising in combination, a base, means comprising a jaw mema film and 'holding .it stationary .relative thereto,` means for4 removing emulsion: fromthe. upper arranged.v inA power, transmitting relation, .and means for Iadjusting. .the direction aof'f` reciprocationrcf theabrading-.member in a verticalplane. 8.L Aidevicel in accordancegwith claim 'lin which means.. is provided.. for adjusting abrading` ``n'1ern.;.

bersrotatablyabout its; axis ofreciprocation.;

9. In a lm splicing machine, a base, an upwardly extending bracket carried thereby, a bearing support attached to the bracket for movement about a horizontal pivot, a bearing carried by the support, two adjusting screws threadedly attached to the bracket and positioned to engage the bearing support on opposite sides of the pivot, said screws serving to adjust the position of the support about the pivot and to clamp it `in adjusted position, a bar slidably mounted in the bearing, manually operable means for reciprocating the bar, comprising a handle pivotally connected to the base, a crank arm, and a link connecting the crank arm to the bar, and a rotary cutter carried by one end of the bar.

l0. In a film splicing apparatus, in combination, a base, a hn support projecting upwardly therefrom, a clamping jaw pivotally connected with the base for movement towards and from the support, a normally open circuit closer carried by the base, means operated by the movement of the clamping jaw towards the support for moving the circuit closer to closed position, a pair of clamping jaws pivotally attached to the base for movement relative to the base and relative to each other, stops for limiting the movement of the pair of jaws in bo-th directions relative to the base, a second. normally open circuit closer carried by the base, means operated by the upward movement of the pair of jaws, for moving Jthe said second circuit closer to closed position, the two circuit closers being connected in series, a rotary cutter carried by the bar, means comprising a handle pivoted to the base and a link mechanism operatively connecting the handle with the bar for vreciprocating it, a motor carried by the base, the motor being connected in series with the two circuit closers, and a motion transmitting mechanism connecting the motor to the cutter for rotating it.

11. In a lm splicing device, a base, a lm support projecting upwardly therefrom, means for holding a film in engagement with the top of the lm support, and a mechanism for removing emulsion from the 4upper surface of the lm, said means comprising, a bracket projecting upward from the base, a pivot projecting laterally from the bracket, a bearing support carried by the pivot and movable relative to the bracket, bearings on the support, means for tilting the bearing support about the axis of the pivot, comprising two screws which extend through the bracket and engage the top of the bearing support on opposite sides of the pivot, a bar slidable in the bearing, a slotted guide member positioned below the bar, the bar having a radial projection extending into the slot, the ends of the slot forming limit stops, means for adjusting the position of the guide member latber` movably attached L to the ,bases fori damping erally with respect "to the bracket, said means comprising three screws;atleastlone of which is threadedly connected with theguide member,V

and means for reciprocating the bar, said means comprising a., handle pivoted tol the base, and meanscomprising a crank arm operatively connected with the handle and a link connecting the.

crank armlto the: bar for moving the latter longitudinally.. whenever the handle is rocked about itspivot.` a l c f I 12. A `film splicer, 'comprising in combination, a base, a lm` support projecting upwardly therefromgmea'nsifor clamping a'lm in position on said support, andmeans for removing emulsion from the upper surfaceiof Ythe film, saidV means comprising a bracket carried by the base, a bearing supportl attached to the bracket for'movement about a horizontal pivot, means for ad'- justing the bearing support about the pivot and` lar relation of the cleaned surface with respect' to the surface Aof the-support can be varied. A

JACOB M. ,(.rOLDBliiRCEr.-` 

